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The Kent coronavirus variant is more deadly than original strains of the virus, another study has claimed.
Researchers analysed the lethality of the highly transmissible strain which is now the dominant type circulating in the UK and found it was worse than earlier variants.
Data from around 55,000 Brits revealed the variant, known as B117, likely increased the risk of death after infection by 64 per cent and potentially as much as doubled it.
Experts said this would equate to the virus killing around 0.41 per cent of everyone it infected in the general public - or one in 250 people.
For comparison, the original Covid strain had a lethality rate of around 0.25 per cent - one in every 400 people.
The research, carried out by academics at the universities of Exeter, Bristol, Warwick and Lancaster, was published in the British Medical Journal.
Despite the finding being worrying for the UK, which is dominated by the variant, scientists are certain that the current vaccines will work just as intended against the strain.
The study comes after No10's top scientific advisers spooked the nation in January when they warned the variant, which first emerged in Kent in September, was up to 30 per cent deadlier than older versions.
It is hard to compare death rates between the first and second waves, to measure the impact of the different variants, because many people weren't tested in the first wave, meaning the ratio of infections to deaths is wrong.
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© Provided by Daily Mail Boris Johnson, Sir Patrick Vallance and Professor Chris Whitty told a Downing Street press conference in January that early hospital data suggested the variant could increase the risk of death for a man his 60s from 1 per cent to 1.3 per cent.
But confusion mounted following the claims, with a senior Public Health England boss playing down the fears and insisted it was not 'absolutely clear' if it was any deadlier.
SAGE then published the papers they used to make their estimate, which showed estimates of the death risk varied wildly.
What do we know about the Kent variant?
Name: B.1.1.7
Where did it come from? The variant was first found in Kent and can be traced back to September 2020. Scientists noticed that it was spreading in November and it was revealed to the public in December.
What makes it new? The variant has a series of mutations that change the shape of the spike protein on its outside. The main one is known as N501Y. This appears to make it better able to stick to the cells inside the body and makes it more likely to cause infection and faster to spread.
How did that happen? Viruses, particularly ones spreading so fast and in such huge numbers, mutate all the time. To reproduce they basically force living cells to copy and paste the viral genetic code, and this can contain errors that lead to slightly different versions of the virus. Often these mutations make no difference but, if they make the virus stronger, they can stick around for further generations and become the norm.
What can we do about it? Nothing much. People who catch the virus won't know which type they have, and it will still cause the same symptoms and illness. Officials can try to contain it by locking down the areas where it is most prevalent, but if it is stronger than other versions of the virus it will eventually spread everywhere and become dominant as long as people continue to travel.
Will our vaccines still work? Yes, it's very likely they will. Scientists on SAGE are fairly sure the mutations the Kent variant carries do not significantly affect how well the immune system can handle it. People who have a vaccine modelled on an older version of the virus, or who have been infected with Covid-19 before, are likely to be immune to it. This is because the main mutations are only on one part of the spike protein, whereas the immune system is able to target various other parts of the virus.
Now, a detailed study has suggested that the risk of death increases by 64 per cent and potentially as much as 100 per cent.
A 64 per cent increase in risk does not mean that 64 per cent of people die, but that the much smaller relative risk rises by that much. For example, a group with a one per cent risk of death would then have a 1.64 per cent risk.
The researchers looked specifically at members of the public, who have a much lower death rate than care home residents and people already in hospital.
Author of the study Dr Robert Challen, a mathematician from the University of Exeter said: 'In the community, death from Covid-19 is still a rare event, but the B117 variant raises the risk.
'Coupled with its ability to spread rapidly, this makes B117 a threat that should be taken seriously.'
Researchers looked at death rates among people infected with the new variant and those infected with other strains.
The Kent variant dates back to September 2020, and was responsible for most of the second wave, while older variants from Wuhan and Spain caused the first wave.
The study found that the Kent variant led to 227 deaths in a sample of 54,906 patients - compared to 141 among the same number of similar patients who had the previous strains.
Because of this increased risk of death and the fact that the variant infects people faster, those who might have been considered relatively low risk before were at higher risk now.
This chimes with official Government guidance, which saw an extra 1.7million people added to the shielding list and advised to stay at home during the vaccine rollout.
In January a paper from SAGE advisers NERVTAG (New And Emerging Respiratory Virus Threats Advisory Group) said there was a 'realistic possibility' that the variant was associated with an increased risk of death.
But scientists warned there was a lot of uncertainty around the data.
Mutations of the virus have raised concerns about whether vaccines would be effective against the new strains, including the now-dominant Kent strain.
But research suggests the Pfizer jab is just as effective against the Kent variant of coronavirus as it was against the original pandemic strain, while other data indicates the Oxford/AstraZeneca jab has a similar efficacy against the variant.
© Provided by Daily MailThe SAGE paper published in January cited three studies of the Kent strain: A London School of Hygiene and Tropical Medicine study (left) based on 2,583 deaths that said the hazard of death within 28 days of test for the mutant strain compared with non-mutant strains was 35% times higher An Imperial College London study (centre) of the Case Fatality Rate of the new mutant strain that found the risk of death was 36% times higher A University of Exeter study (right) that suggested the risk of death could be 91% higher. Both the Exeter and the Imperial studies were based on just 8% of deaths during the study period
VALLANCE WARNS NEW VARIANTS CANNOT BE AVOIDED: 'THAT'S WHAT VIRUSES DO'
Sir Patrick Vallance, the UK's chief scientific adviser, said there was no way to permanently stop new variants of the coronavirus from evolving.
While closing borders might stop them coming in, and keeping transmission of the virus very low in the UK might stop them evolving within the country, neither measure could last forever.
Because mutations happen at random, Sir Patrick explained that the more cases there are, the more likely it is that the virus will evolve permanently into a new variant because it has more opportunities to change.
He told MPs: 'I would expect to see more variants emerge and if you look at what's happened, there is a process of convergent evolution. wherever we're seeing these changes they look the same. The virus is actually doing the same thing in different ways, acquiring certain mutations that it wants to acquire - largely for the purposes of transmission as far as we can tell.
'This is something that means that we will see those being acquired in this country and is again a reason to keep rates down as low as possible. That's where I think we should focus our attention.
'I do not think we will stop new variants from emerging with the virus - it is what will happen. You can minimise the chance of it happening by keeping rates low.
'But, just as the flu virus changes every year, so I would expect this virus to change over time; that's what viruses do, they mutate and then when they find a mutation that gives them some advantage they'll hang onto it.
'At the moment, the advantage is mostly on transmission. Once the world is vaccinated more then there may be variants that come out that try to get round the immune response a bit more.'
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